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In some cases it is necessary to pass parameters to Linux so that it will
boot correctly. For example, the rootdev parameter is often used to
specify the root device. However the root device may change depending on
whence U-Boot loads the kernel. At present it is necessary to build up
the command line by adding device strings to it one by one.
It is often more convenient to provide a template for bootargs, with
U-Boot doing the substitution from other environment variables.
Add a way to substitute strings in the bootargs variable. This allows
things like "rootdev=${rootdev}" to be used in bootargs, with the
${rootdev} substitution providing the UUID of the root device.
For example, to substitute the GUID of the kernel partition:
setenv bootargs "console=/dev/ttyS0 rootdev=${uuid}/PARTNROFF=1
kern_guid=${uuid}"
part uuid mmc 2:2 uuid
bootm
This is particularly useful when the command line from another place. For
example, Chrome OS stores the command line next to the kernel itself. It
depends on the kernel version being used as well as the hardware features,
so it is extremely difficult to devise a U-Boot script that works on all
boards and kernel versions. With this feature, the command line can be
read from disk and used directly, with a few substitutions set up.
Signed-off-by: Simon Glass <sjg@chromium.org>
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| .. | ||
| cmd | ||
| dm | ||
| env | ||
| fs | ||
| image | ||
| lib | ||
| log | ||
| optee | ||
| overlay | ||
| py | ||
| stdint | ||
| trace | ||
| bloblist.c | ||
| bootm.c | ||
| cmd_ut.c | ||
| command_ut.c | ||
| common.sh | ||
| compression.c | ||
| Kconfig | ||
| Makefile | ||
| nokia_rx51_test.sh | ||
| print_ut.c | ||
| README | ||
| run | ||
| str_ut.c | ||
| time_ut.c | ||
| unicode_ut.c | ||
| ut.c | ||
Testing in U-Boot
=================
U-Boot has a large amount of code. This file describes how this code is
tested and what tests you should write when adding a new feature.
Running tests
-------------
To run most tests on sandbox, type this:
make check
in the U-Boot directory. Note that only the pytest suite is run using this
command.
Some tests take ages to run. To run just the quick ones, type this:
make qcheck
Sandbox
-------
U-Boot can be built as a user-space application (e.g. for Linux). This
allows test to be executed without needing target hardware. The 'sandbox'
target provides this feature and it is widely used in tests.
Pytest Suite
------------
Many tests are available using the pytest suite, in test/py. This can run
either on sandbox or on real hardware. It relies on the U-Boot console to
inject test commands and check the result. It is slower to run than C code,
but provides the ability to unify lots of tests and summarise their results.
You can run the tests on sandbox with:
./test/py/test.py --bd sandbox --build
This will produce HTML output in build-sandbox/test-log.html
See test/py/README.md for more information about the pytest suite.
tbot
----
Tbot provides a way to execute tests on target hardware. It is intended for
trying out both U-Boot and Linux (and potentially other software) on a
number of boards automatically. It can be used to create a continuous test
environment. See http://www.tbot.tools for more information.
Ad-hoc tests
------------
There are several ad-hoc tests which run outside the pytest environment:
test/fs - File system test (shell script)
test/image - FIT and legacy image tests (shell script and Python)
test/stdint - A test that stdint.h can be used in U-Boot (shell script)
trace - Test for the tracing feature (shell script)
TODO: Move these into pytest.
When to write tests
-------------------
If you add code to U-Boot without a test you are taking a risk. Even if you
perform thorough manual testing at the time of submission, it may break when
future changes are made to U-Boot. It may even break when applied to mainline,
if other changes interact with it. A good mindset is that untested code
probably doesn't work and should be deleted.
You can assume that the Pytest suite will be run before patches are accepted
to mainline, so this provides protection against future breakage.
On the other hand there is quite a bit of code that is not covered with tests,
or is covered sparingly. So here are some suggestions:
- If you are adding a new uclass, add a sandbox driver and a test that uses it
- If you are modifying code covered by an existing test, add a new test case
to cover your changes
- If the code you are modifying has not tests, consider writing one. Even a
very basic test is useful, and may be picked up and enhanced by others. It
is much easier to add onto a test - writing a new large test can seem
daunting to most contributors.
Future work
-----------
Converting existing shell scripts into pytest tests.